---
-- Library methods for handling MongoDB, creating and parsing packets.
--
-- @author Martin Holst Swende
-- @copyright Same as Nmap--See http://nmap.org/book/man-legal.html
--
-- Version 0.1

-- Created 01/13/2010 - v0.1 - created by Martin Holst Swende <martin@swende.se>
module("mongodb", package.seeall)
require("bin")
--require("bson")

-- Some lazy shortcuts

local function dbg(str,...)
	stdnse.print_debug("MngoDb:"..str, unpack(arg))
end
--local dbg =stdnse.print_debug

local err =stdnse.log_error

----------------------------------------------------------------------
-- First of all comes a Bson parsing library. This can easily be moved out into a separate library should other 
-- services start to use Bson
----------------------------------------------------------------------
-- Library methods for handling the BSON format 
--
-- For more documentation about the BSON format, 
---and more details about it's implementations, check out the 
-- python BSON implementation which is available at 
-- http://github.com/mongodb/mongo-python-driver/blob/master/pymongo/bson.py
-- and licensed under the Apache License, Version 2.0 http://www.apache.org/licenses/LICENSE-2.0)
--
-- @author Martin Holst Swende
-- @copyright Same as Nmap--See http://nmap.org/book/man-legal.html
--
-- Version 0.1

-- Created 01/13/2010 - v0.1 - created by Martin Holst Swende <martin@swende.se>
--module("bson", package.seeall)
--require("bin")
local function dbg_err(str,...)
	stdnse.print_debug("Bson-ERR:"..str, unpack(arg))
end
--local err =stdnse.log_error

-- Packs data into nullterminated string
--@param input the string to pack
--@return the packed nullterminated string
local function make_nullterminated_string(input)
	return bin.pack("z",input)
end

--Converts an element (key, value) into bson binary data
--@param key the key name, must *NOT* contain . (period) or start with $
--@param value, the element value
--@return status : true if ok, false if error
--@return result : the packed binary data OR error message
local function _element_to_bson(key, value)
	
	--Some constraints-checking
	if type(key) ~= 'string' then 
		return false, "Documents must have only string keys, key was " .. type(key) 
	end
        if key:sub(1,1) == "$" then 
		return false,  "key must not start with $: ".. key 
	end
        if key:find("%.") then
		return false, ("key %r must not contain '.'"):format(tostring(key))
	end
	
	local name =bin.pack("z",key) -- null-terminated string
	if type(value) == 'string' then
		local cstring = bin.pack("z",value) -- null-terminated string
		local length = bin.pack("<i", cstring:len())
		local op = bin.pack('H','02')
		return true, op .. name .. length .. cstring
	elseif type(value) =='table' then
		return true, bin.pack('H','02') .. name .. toBson(value)
	elseif type(value)== 'boolean' then
	      return true, bin.pack('H','08') + name + bin.pack('H',value and '01' or '00')
	elseif type(value) == 'number' then
		--return bin.pack('H','10')..	name .. bin.pack("<i", value)
		-- Use 01 - double for - works better than 10
		return true, bin.pack('H','01') .. name .. bin.pack("<d", value)
	end
	
	local _ = ("cannot convert value of type %s to bson"):format(type(value))
	return false, _
end

--Converts a table of elements to binary bson format
--@param dict the table
--@return status : true if ok, false if error 
--@return result : a string of binary data OR error message
function toBson(dict)
    
        local elements = ""
	--Put id first
	if dict._id then
		local status,res = _element_to_bson("_id", dict._id)
		if not status then return false, res end
		elements = elements..res
	end
	--Concatenate binary values
	for key, value in pairs( dict ) do
		dbg("dictionary to bson : key,value =(%s,%s)",key,value)
		if key ~= "_id" then
			local status,res = _element_to_bson(key,value)
			if not status then return false, res end
			elements = elements..res
		end
	end
	-- Get length
	local length = #elements + 5
	
	if length > 4 * 1024 * 1024 then
		return false, "document too large - BSON documents are limited to 4 MB"
	end
	dbg("Packet length is %d",length)
	--Final pack
	return true, bin.pack("I", length) .. elements .. bin.pack('H',"00")
end

-- Reads a null-terminated string. If length is supplied, it is just cut 
-- out from the data, otherwise the data is scanned for at null-char. 
--@param data the data which starts with a c-string
--@param length optional length of the string
--@return the string 
--@return the remaining data (*without* null-char)
local function get_c_string(data,length)
	if not length then
		local index = data:find(string.char(0))
		if index == nil then 
			error({code="C-string did not contain NULL char"}) 
		end
		length = index
	end
	local value = data:sub(1,length-1)
	
	--dbg("Found char at pos %d, data is %s c-string is %s",length, data, value)
	
	return value, data:sub(length+1)
end

-- Element parser. Parse data elements
-- @param data String containing binary data
-- @return Position in the data string where parsing stopped
-- @return Unpacked value
-- @return error string if error occurred
local function parse(code,data)
	if 	1 == code  then -- double 
		return bin.unpack("<d", data)
	elseif 2 == code then -- string
		-- data length = first four bytes
		local _,len = bin.unpack("<i",data) 
		-- string data = data[5] -->
		local value = get_c_string(data:sub(5), len)
		-- Count position as header (=4) + length of string (=len)+ null char (=1)
		return 4+len+1,value
	elseif 3 == code or 4 == code then -- table or array 
		local object, err
	
		-- Need to know the length, to return later
		local _,obj_size = bin.unpack("<i", data)
		-- Now, get the data object
		dbg("Recursing into bson array")
		object, data, err = fromBson(data)
		dbg("Recurse finished, got data object")
		-- And return where the parsing stopped 
		return obj_size+1, object
	--6 = _get_null
	--7 = _get_oid
	elseif 8 == code then -- Boolean
		return 2, data:byte(1) == 1
	elseif 9 == code then -- int64, UTC datetime
		return bin.unpack("<l", data)
	elseif 10 == code then -- nullvalue
		return 0,nil
	--11= _get_regex
	--12= _get_ref
	--13= _get_string, # code
	--14= _get_string, # symbol
	--15=  _get_code_w_scope
	elseif 16 == code then -- 4 byte integer
		return bin.unpack("<i", data)
	--17= _get_timestamp
	elseif 18 == code then -- long 
		return bin.unpack("<l", data)
	end
	local err = ("Getter for %d not implemented"):format(code)
	return 0, data, err
end


-- Reads an element from binary to BSon
--@param data a string of data to convert
--@return Name of the element
--@return Value of the element 
--@return Residual data not used
--@return any error that occurred
local function _element_to_dict(data)
	local element_type, element_name, err, pos, value
	--local element_size = data:byte(1)
	element_type = data:byte(1)
	element_name, data = get_c_string(data:sub(2))
	
	dbg(" Read element name '%s' (type:%s), data left: %d",element_name, element_type,data:len())
	--pos,value,err = parsers.get(element_type)(data)
	pos,value,err = parse(element_type,data)
	if(err ~= nil) then 
		dbg_err(err)
		return nil,nil, data, err 
	end
	
	data=data:sub(pos)
	
	dbg(" Read element value '%s', data left: %d",tostring(value), data:len())
	return element_name, value, data
end

--Reads all elements from binary to BSon
--@param data the data to read from
--@return the resulting table
local function _elements_to_dict(data)
	local result = {}
	local key,value
	while data and data:len() > 1 do
		key, value, data = _element_to_dict(data)
		dbg("Parsed (%s='%s'), data left : %d", tostring(key),tostring(value), data:len())
		if type(value) ~= 'table' then value=tostring(value) end
		result[key] = value
	end
	return result
end

--Checks if enough data to parse the result is captured
--@data binary bson data read from socket
--@return true if the full bson table is contained in the data, false if data is incomplete
--@return required size of packet, if known, otherwise nil
function isPacketComplete(data)
	-- First, we check that the header is complete
	if data:len() < 4 then
		local err_msg = "Not enough data in buffer, at least 4 bytes header info expected"
		return false
	end
	
	local _,obj_size = bin.unpack("<i", data)
	
	dbg("BSon packet size is %s", obj_size)
	
	-- Check that all data is read and the packet is complete
	if data:len() < obj_size then
		return false,obj_size
	end
	return true,obj_size
end

-- Converts bson binary data read from socket into a table
-- of elements
--@param data: binary data
--@return table containing elements
--@return remaining data
--@return error message if not enough data was in packet
function fromBson(data)
	
	dbg("Decoding, got %s bytes of data", data:len())
	local complete, object_size = isPacketComplete(data)

	if not complete then
		local err_msg = ("Not enough data in buffer, expected %s but only has %d"):format(object_size or "?", data:len())
		dbg(err_msg)
		return {},data, err_msg 
	end
	
	local element_portion = data:sub(5,object_size)
	local remainder = data:sub(object_size+1)
	return _elements_to_dict(element_portion), remainder
end


----------------------------------------------------------------------------------
-- Test-code for debugging purposes below
----------------------------------------------------------------------------------
function testBson()
	local p = toBson({hello="world", test="ok"})
	
	print( "Encoded something ok")
	local orig = fromBson(p)
	print(" Decoded something else ok")
	for i,v in pairs(orig) do
		print(i,v)
	end
end
--testBson()
--------------------------------------------------------------------------------------------------------------
--- END of BSON part
--------------------------------------------------------------------------------------------------------------


--[[ MongoDB wire protocol format

Standard message header : 
struct {
    int32   messageLength;  // total size of the message, including the 4 bytes of length
    int32   requestID;      // client or database-generated identifier for this message
    int32   responseTo;     // requestID from the original request (used in reponses from db)
    int32   opCode;         // request type - see table below
}

Opcodes : 
OP_REPLY 	 1 	 Reply to a client request. responseTo is set
OP_MSG 	1000 	generic msg command followed by a string
OP_UPDATE 	2001 	update document
OP_INSERT 	2002 	insert new document
OP_GET_BY_OID 	2003 	is this used?
OP_QUERY 	2004 	query a collection
OP_GET_MORE 	2005 	Get more data from a query. See Cursors
OP_DELETE 	2006 	Delete documents
OP_KILL_CURSORS 	2007 	Tell database client is done with a cursor 

Query message : 
struct {
    MsgHeader header;                 // standard message header
    int32     opts;                   // query options.  See below for details.
    cstring   fullCollectionName;     // "dbname.collectionname"
    int32     numberToSkip;           // number of documents to skip when returning results
    int32     numberToReturn;         // number of documents to return in the first OP_REPLY
    BSON      query ;                 // query object.  See below for details.
  [ BSON      returnFieldSelector; ]  // OPTIONAL : selector indicating the fields to return.  See below for details.
}

For more info about the MongoDB wire protocol, see http://www.mongodb.org/display/DOCS/Mongo+Wire+Protocol

--]]

-- DIY lua-class to create Mongo packets
--@usage call MongoData:new({opCode=MongoData.OP.QUERY}) to create query object
MongoData ={
	uniqueRequestId = 12345,
	-- Opcodes used by Mongo db
	OP = {
	REPLY 	= 1,
	MSG 	= 1000,
	UPDATE 	= 2001,
	INSERT	= 2002,
	GET_BY_IOD	=2003,
	QUERY	= 2004,
	GET_MORE	= 2005,
	DELETE	= 2006,
	KILL_CURSORS	= 2007,
	},
	-- Lua-DIY constructor
	new = function  (self,o,opCode,responseTo)
		o = o or {}   -- create object if user does not provide one
		setmetatable(o, self) -- DIY inheritance a'la javascript
		self.__index = self
		self.valueString = ''
		self.requestID = MongoData.uniqueRequestId -- Create unique id for message
		MongoData.uniqueRequestId = MongoData.uniqueRequestId +1
		return o
	end
}
--Adds unsigned int32 to the message body
--@param value the value to add
function MongoData:addUnsignedInt32(value)
		self.valueString = self.valueString..bin.pack("I",value)
end
-- Adds a string to the message body
--@param value the string to add
function MongoData:addString(value)
	self.valueString = self.valueString..bin.pack('z',value)
end
-- Add a table as a BSon object to the body
--@param dict the table to be converted to BSon
--@return status : true if ok, false if error occurred
--@return Error message if error occurred
function MongoData:addBSON(dict)
--	status, res = bson.toBson(dict)
	local status, res = toBson(dict)
	if not status then 
		dbg(res)
		return status,res
	end
	
	self.valueString = self.valueString..res
	return true
end
-- Returns the data in this packet in a raw string format to be sent on socket
-- This method creates necessary header information and puts it with the body
function MongoData:data()
	local header = MongoData:new()
	header:addUnsignedInt32( self.valueString:len()+4+4+4+4)
	header:addUnsignedInt32( self.requestID)
	header:addUnsignedInt32( self.responseTo or 0xFFFFFFFF)
	header:addUnsignedInt32( self.opCode)
	return header.valueString .. self.valueString
end
-- Creates a query
-- @param collectionName string specifying the collection to run query against
-- @param a table containing the query
--@return status : true for OK, false for error
--@return packet data OR error message
local function createQuery(collectionName, query)
	local packet = MongoData:new({opCode=MongoData.OP.QUERY})
	packet:addUnsignedInt32(0); -- options
	packet:addString(collectionName);
	packet:addUnsignedInt32(0) 	-- number to skip
	packet:addUnsignedInt32(-1) -- number to return : no limit
	local status, error = packet:addBSON(query)
	
	if not status then
		return status, error
	end
	
	return true, packet:data()
end
-- Creates a get last error query
-- @param responseTo optional identifier this packet is a response to 
--@return status : true for OK, false for error
--@return packet data OR error message
function lastErrorQuery(responseTo)
	local collectionName = "test.$cmd"
	local query = {getlasterror=1}
	return createQuery(collectionName, query)
end
-- Creates a server status query
-- @param responseTo optional identifier this packet is a response to 
--@return status : true for OK, false for error
--@return packet data OR error message
function serverStatusQuery(responseTo)
	local collectionName = "test.$cmd"
	local query = {serverStatus = 1}
	return createQuery(collectionName, query)
end
-- Creates a optime query
-- @param responseTo optional identifier this packet is a response to 
--@return status : true for OK, false for error
--@return packet data OR error message
function opTimeQuery(responseTo)
	local collectionName = "test.$cmd"
	local query = {getoptime = 1}
	return createQuery(collectionName, query)
end
-- Creates a list databases query
-- @param responseTo optional identifier this packet is a response to 
--@return status : true for OK, false for error
--@return packet data OR error message
function listDbQuery(responseTo)
	local collectionName = "admin.$cmd"
	local query = {listDatabases = 1}
	return createQuery(collectionName, query)
end
-- Creates a build info query
-- @param responseTo optional identifier this packet is a response to 
--@return status : true for OK, false for error
--@return packet data OR error message
--@return status : true for OK, false for error
--@return packet data OR error message
function buildInfoQuery(responseTo)
	local collectionName = "admin.$cmd"
	local query = {buildinfo = 1}
	return createQuery(collectionName, query)
end

--Reads an int32 from data
--@return int32 value
--@return data unread
local function parseInt32(data)
	local pos,val = bin.unpack("<i",data) 
	return val, data:sub(pos)
end
local function parseInt64(data)
	local pos,val =  bin.unpack("<l",data) 
	return val, data:sub(pos)
end
-- Parses response header
-- The response header looks like this : 
--[[
struct {
    MsgHeader header;                 // standard message header
    int32     responseFlag;           // normally zero, non-zero on query failure
    int64     cursorID;               // id of the cursor created for this query response
    int32     startingFrom;           // indicates where in the cursor this reply is starting
    int32     numberReturned;         // number of documents in the reply
    BSON[]    documents;              // documents
}
--]]
--@param the data from socket
--@return a table containing the header data
local function parseResponseHeader(data)
	local response= {}
	local hdr, rflag, cID, sfrom, nRet, docs
	
	-- First std message header
	hdr ={}
	hdr["messageLength"], data = parseInt32(data)
	hdr["requestID"], data = parseInt32(data)
	hdr["responseTo"], data = parseInt32(data)
	hdr["opCode"], data = parseInt32(data)
	response["header"] = hdr
	-- Some additional fields
	response["responseFlag"] ,data = parseInt32(data)
	response["cursorID"] ,data = parseInt64(data)
	response["startingFrom"] ,data = parseInt32(data)
	response["numberReturned"] ,data = parseInt32(data)
	response["bson"] = data
	return response
end
--Checks if enough data to parse the result is captured
--@data binary mongodb data read from socket
--@return true if the full mongodb packet is contained in the data, false if data is incomplete
--@return required size of packet, if known, otherwise nil
function isPacketComplete(data)
	-- First, we check that the header is complete
	if data:len() < 4 then
		local err_msg = "Not enough data in buffer, at least 4 bytes header info expected"
		return false
	end
	
	local _,obj_size = bin.unpack("<i", data)
	
	dbg("MongoDb Packet size is %s, (got %d)", obj_size,data:len())
	
	-- Check that all data is read and the packet is complete
	if data:len() < obj_size then
		return false,obj_size
	end
	return true,obj_size
end

-- Sends a packet over a socket, reads the response
-- and parses it into a table
--@return status : true if ok; false if bad
--@return result : table of status ok, error msg if bad
--@return if status ok : remaining data read from socket but not used
function query(socket, data)
	--Create an error handler
	local catch = function()
		socket:close()
		stdnse.print_debug(string.format("Query failed"))
	end
	local try = nmap.new_try(catch)

	try( socket:send( data ) )

	local data = ""
	local result =  {}
	local err_msg
	local isComplete, pSize
	while not isComplete do
		dbg("mongo: waiting for data from socket, got %d bytes so far...",data:len())
		data = data .. try( socket:receive() )
		isComplete, pSize = isPacketComplete(data)
	end	
	-- All required data shold be read now
	local packetData = data:sub(1,pSize)
	local residualData = data:sub(pSize+1)
	local responseHeader = parseResponseHeader(packetData)
	
	if responseHeader["responseFlag"] ~= 0 then
		dbg("Response flag not zero : %d, some error occurred", responseHeader["responseFlag"])
	end
	
	local bsonData = responseHeader["bson"]
	if #bsonData == 0 then 
		dbg("No BSon data returned ")
		return false, "No Bson data returned"
	end
	
--	result, data, err_msg = bson.fromBson(bsonData)
	result, data, err_msg = fromBson(bsonData)
	
	if err_msg then
		dbg("Got error converting from bson: %s" , err_msg)
		return false, ("Got error converting from bson: %s"):format(err_msg)
	end
	return true,result, residualData
end
--- Converts a quert result as received from MongoDB query into nmap "result" table
-- @param resultTable table as returned from a quer
-- @return table suitable for <code>stdnse.format_output</code>
function queryResultToTable( resultTable )

	local result = {}
	for k,v in pairs( resultTable ) do
		if type(v) == 'table' then
			table.insert(result,k)
			table.insert(result,queryResultToTable(v))
		else
			table.insert(result,(("%s = %s"):format(tostring(k), tostring(v))))
		end
	end	
	return result
	
end
----------------------------------------------------------------------------------
-- Test-code for debugging purposes below
----------------------------------------------------------------------------------


--- Prints data (string) as Hex values, e.g so it more easily can 
-- be compared with a packet dump
-- @param strData the data in a string format

local function printBuffer(strData)
	local out = ''
	local ch
	for i  = 1,strData:len() do
		out = out .." "
		ch =strData:byte(i)
		if(ch < 16) then
			ch = string.format("0%x",ch)
		else ch = string.format("%x",ch)
		end
		--if ch > 64 and ch < 123 then
		--	out = out .. string.char(ch)
		--else 
			out = out .. ch
		--end
	end
	print(out)
end

function test()
	local res
	res = versionQuery()
	print(type(res),res:len(),res)
	local  out= bin.unpack('C'..#res,res)
	printBuffer(res)
end
--test()

